Methods and systems for providing control stability in a vacuum generation system using cascade proportional-integral-derivative (PID) controller

1. A method of controlling vacuum pressure in a vacuum generation system, the method comprising: receiving a vacuum pressure sensor reading from a vacuum pressure sensor; calculating a first error between the vacuum pressure sensor reading and a vacuum pressure set point; calculating a supply air pressure set point based on the first error; receiving a supply air pressure sensor reading from a supply air pressure sensor; calculating a second error between the supply air pressure sensor reading and the supply air pressure set point; calculating a voltage level for controlling a proportional valve based on the second error; providing the voltage level to the proportional valve; causing, using the proportional valve, supply air pressure to be provided to a vacuum generator based on the voltage level; and providing, using the vacuum generator, vacuum pressure based on the supply air pressure to a surgical tool.

2. The method of claim 1, wherein calculating the supply air pressure set point is performed by a first proportional-integral-derivative (PID) controller.

3. The method of claim 2, wherein calculating the voltage level is performed by a second PID controller.

4. The method of claim 1, wherein calculating the supply air pressure set point based on the first error comprises limiting the supply air pressure set point to a range that corresponds to a monotonic operating range of the vacuum generator.

5. The method of claim 1, wherein calculating the supply air pressure set point based on the first error comprises limiting the supply air pressure set point to a range of 0-60 psig (pounds per square inch gauge).

6. The method of claim 1, wherein calculating the voltage level for controlling the proportional valve comprises limiting the voltage level to an operating voltage range of the proportional valve.

7. A vacuum generation system, comprising: a first proportional-integral-derivative (PID) controller, configured to: receive a first error between a vacuum pressure sensor reading associated with a vacuum generator and a vacuum pressure set point; calculate a supply air pressure set point based on the first error; a second PID controller, configured to: receive a second error between a supply air pressure sensor reading and the supply air pressure set point; calculate a voltage level based on the second error; the proportional valve, configured to: receive the voltage level; cause supply air pressure to be provided to a vacuum generator based on the voltage level; the vacuum generator, configured to: provide vacuum pressure based on the supply air pressure to a surgical tool.

8. The vacuum generation system of claim 7, further comprising: a vacuum pressure sensor, configured to provide the vacuum pressure sensor reading; and a supply air pressure sensor, configured to provide the supply air pressure sensor reading.

9. The vacuum generation system of claim 7, wherein the first PID controller being configured to calculate the supply air pressure set point based on the first error comprises the first PID controller being configured to limit the supply air pressure set point to a range that corresponds to a monotonic operating range of the vacuum generator.

10. The vacuum generation system of claim 7, wherein the first PID controller being configured to calculate the supply air pressure set point based on the first error comprises the first PID controller being configured to limit the supply air pressure set point to a range of 0-60 psig (pounds per square inch gauge).

11. The vacuum generation system of claim 7, wherein the second PID controller being configured to calculate the voltage level for controlling the proportional valve comprises the second PID controller being configured to limit the voltage level to an operating voltage range of the proportional valve.

12. A vacuum generation system, comprising: a memory comprising executable instructions; a processor in data communication with memory and configured to execute the instructions, which configured the processor to; receive a first error between a vacuum pressure sensor reading associated with a vacuum generator and a vacuum pressure set point; calculate a supply air pressure set point based on the first error; receive a second error between a supply air pressure sensor reading and the supply air pressure set point; calculate a voltage level based on the second error; cause the voltage level to be provided to the proportional valve; the proportional valve, configured to: cause supply air pressure to be provided to a vacuum generator based on the voltage level; the vacuum generator, configured to: provide vacuum pressure based on the supply air pressure to a surgical tool.

13. The vacuum generation system of claim 12, further comprising: a vacuum pressure sensor, configured to provide the vacuum pressure sensor reading; and a supply air pressure sensor, configured to provide the supply air pressure sensor reading.

14. The vacuum generation system of claim 12, wherein calculating the supply air pressure set point based on the first error comprises limiting the supply air pressure set point to a range that corresponds to a monotonic operating range of the vacuum generator.

15. The vacuum generation system of claim 12, wherein calculating the supply air pressure set point based on the first error comprises limiting the supply air pressure set point to a range of 060 psig (pounds per square inch gauge).